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W2889349701 endingPage "108" @default.
W2889349701 startingPage "97" @default.
W2889349701 abstract "Abstract Exceptionally high strength Mg 3Al 1Zn-0.3Mn wt.% (AZ31) is demonstrated herein, revealing a yield strength of 380 MPa in both tension and compression, for extrusions prepared at 175 °C. Extruded AZ31 nominally has a low-to-moderate yield strength amongst typical magnesium (Mg) extrusion alloys, generally less than 250 MPa. The low strength is predominantly due to a large grain size and the absence of effective precipitation strengthening. In this study, AZ31 was extruded at different temperatures to reveal an exceptionally high strength with ultrafine grains of 0.65 μm in diameter. To reveal the origin of high strength in this AZ31 alloy, the microstructure of AZ31 was compared with those of Mg 1Zn alloy and pure Mg with similar grain size and textures. The solute atoms were identified to be the key to alloy strengthening (∼210 MPa). In contrast to grain boundary sliding, grain boundary migration and grain rotation that is observed submicron-grained pure Mg; the solute in submicron-grained AZ31 suppressed such intergranular deformation modes, with the grain boundaries in submicron-grained AZ31 providing significant strengthening (via the Hall-Petch relationship). In the high-strength AZ31 presented, Al reacts with Mn to form uniformly distributed particles, whilst Zn solute atoms segregated to grain boundaries, the latter posited to stabilize the boundaries of submicron grains by reducing grain boundary energy and thus suppressing the intergranular deformation. The results herein reveal high strength Mg-alloys are readily achievable, the related concepts of which have implications for numerous Mg alloy systems." @default.
W2889349701 created "2018-09-07" @default.
W2889349701 creator A5005982399 @default.
W2889349701 creator A5043259112 @default.
W2889349701 creator A5055824316 @default.
W2889349701 creator A5059050341 @default.
W2889349701 creator A5065706557 @default.
W2889349701 creator A5068614764 @default.
W2889349701 creator A5086104373 @default.
W2889349701 date "2018-11-01" @default.
W2889349701 modified "2023-10-17" @default.
W2889349701 title "Achieving exceptionally high strength in Mg 3Al 1Zn-0.3Mn extrusions via suppressing intergranular deformation" @default.
W2889349701 cites W1129742046 @default.
W2889349701 cites W1491849168 @default.
W2889349701 cites W1576114465 @default.
W2889349701 cites W1666813058 @default.
W2889349701 cites W1967396915 @default.
W2889349701 cites W1968384095 @default.
W2889349701 cites W1969570687 @default.
W2889349701 cites W1973298571 @default.
W2889349701 cites W1974532467 @default.
W2889349701 cites W1976794493 @default.
W2889349701 cites W1977943111 @default.
W2889349701 cites W1978064892 @default.
W2889349701 cites W1979719351 @default.
W2889349701 cites W1980350457 @default.
W2889349701 cites W1980648613 @default.
W2889349701 cites W1980875445 @default.
W2889349701 cites W1986015991 @default.
W2889349701 cites W1987344529 @default.
W2889349701 cites W1988228017 @default.
W2889349701 cites W1989275839 @default.
W2889349701 cites W1989352965 @default.
W2889349701 cites W1992205636 @default.
W2889349701 cites W1992398968 @default.
W2889349701 cites W1994958309 @default.
W2889349701 cites W1995285784 @default.
W2889349701 cites W1997259274 @default.
W2889349701 cites W1998675210 @default.
W2889349701 cites W1999089383 @default.
W2889349701 cites W1999351454 @default.
W2889349701 cites W1999469390 @default.
W2889349701 cites W2003516639 @default.
W2889349701 cites W2003747466 @default.
W2889349701 cites W2005419312 @default.
W2889349701 cites W2005882087 @default.
W2889349701 cites W2010181449 @default.
W2889349701 cites W2013650325 @default.
W2889349701 cites W2018717333 @default.
W2889349701 cites W2019874648 @default.
W2889349701 cites W2026120930 @default.
W2889349701 cites W2030644878 @default.
W2889349701 cites W2033616846 @default.
W2889349701 cites W2035726490 @default.
W2889349701 cites W2039118985 @default.
W2889349701 cites W2041837370 @default.
W2889349701 cites W2042444262 @default.
W2889349701 cites W2044896233 @default.
W2889349701 cites W2047263970 @default.
W2889349701 cites W2048620279 @default.
W2889349701 cites W2058470975 @default.
W2889349701 cites W2060157621 @default.
W2889349701 cites W2061978608 @default.
W2889349701 cites W2063746517 @default.
W2889349701 cites W2064294202 @default.
W2889349701 cites W2065725781 @default.
W2889349701 cites W2069416742 @default.
W2889349701 cites W2069620375 @default.
W2889349701 cites W2070691359 @default.
W2889349701 cites W2071250744 @default.
W2889349701 cites W2081197631 @default.
W2889349701 cites W2082525102 @default.
W2889349701 cites W2085360858 @default.
W2889349701 cites W2088287863 @default.
W2889349701 cites W2088571858 @default.
W2889349701 cites W2091024385 @default.
W2889349701 cites W2092240114 @default.
W2889349701 cites W2094492876 @default.
W2889349701 cites W2116632169 @default.
W2889349701 cites W2153077083 @default.
W2889349701 cites W2155359523 @default.
W2889349701 cites W2163272368 @default.
W2889349701 cites W2164534849 @default.
W2889349701 cites W2168198610 @default.
W2889349701 cites W2238395753 @default.
W2889349701 cites W2258576930 @default.
W2889349701 cites W2277339403 @default.
W2889349701 cites W2328181647 @default.
W2889349701 cites W2344905206 @default.
W2889349701 cites W2422557266 @default.
W2889349701 cites W2473232379 @default.
W2889349701 cites W2598001165 @default.
W2889349701 cites W2599003897 @default.
W2889349701 cites W2751097941 @default.
W2889349701 cites W2762949471 @default.
W2889349701 cites W2790233671 @default.
W2889349701 cites W4256075438 @default.
W2889349701 cites W842222789 @default.